A watercraft drain assembly has a tubular drain body having a first end and a second end, at least one inlet opening disposed on the drain body for allowing water to enter the drain body, a first outlet opening disposed at the first end of the drain body for allowing water to exit the drain body, a drain plug for selectively plugging the first outlet opening, and a second outlet opening disposed on the drain body for allowing water to exit the drain body. A watercraft incorporating the watercraft drain assembly is also disclosed.
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1. A watercraft drain assembly comprising:
a tubular drain body having a first end and a second end;
at least one inlet opening disposed on the drain body for allowing water to enter the drain body;
a first outlet opening disposed at the first end of the drain body for allowing water to exit the drain body;
a drain plug for selectively plugging the first outlet opening; a second outlet opening disposed on the drain body for allowing water to exit the drain body; and
a check valve for preventing water from exiting the drain body through the at least one inlet opening;
wherein the check valve is a ball disposed inside the drain body,
wherein the ball moves to a first position preventing fluid communication from the drain body to the at least one inlet opening when water enters the drain body from at least one of the first and second outlet openings, and
wherein the ball moves to a second position allowing fluid communication from the at least one inlet opening to the drain body when water enters the drain body from the at least one inlet opening.
17. A watercraft comprising:
a hull having a transom;
a propulsion unit mounted to the hull;
an engine operatively connected to the propulsion unit for powering the propulsion unit;
at least one drain assembly mounted to the hull for fluidly communicating an interior of the hull with an exterior of the hull, the drain assembly comprising:
a tubular drain body having a first end passing through the transom and a second end extending in the interior of the hull;
at least one inlet opening disposed on the drain body for fluidly communicating the interior of the hull with the drain body;
a first outlet opening disposed at the first end for fluidly communicating the drain body with the exterior of the hull;
a drain plug for selectively plugging the first outlet opening; and
a second outlet opening disposed on the drain body for fluidly communicating the drain body with the exterior of the hull;
a hose fluidly connected to the second outlet opening for fluidly communicating the drain body with the exterior of the hull; and
a pump in fluid communication with the hose for pumping water present in the hull near the drain assembly through the at least one inlet opening, to the drain body, and through the second outlet opening, through the hose to the exterior of the hull.
8. A watercraft comprising:
a hull having a transom;
a propulsion unit mounted to the hull;
an engine operatively connected to the propulsion unit for powering the propulsion unit;
at least one drain assembly mounted to the hull for fluidly communicating an interior of the hull with an exterior of the hull, the drain assembly comprising:
a tubular drain body having a first end passing through the transom and a second end extending in the interior of the hull;
at least one inlet opening disposed on the drain body for fluidly communicating the interior of the hull with the drain body;
a first outlet opening disposed at the first end for fluidly communicating the drain body with the exterior of the hull;
a drain plug for selectively plugging the first outlet opening; and
a second outlet opening disposed on the drain body for fluidly communicating the drain body with the exterior of the hull; and
a hose fluidly connected to the second outlet opening for fluidly communicating the drain body with the exterior of the hull;
wherein the propulsion unit is a jet pump and the hose fluidly communicates the drain body with the jet pump such that when the jet pump is powered by the engine, water present in the hull near the at least one drain is aspirated through the at least one inlet opening to the drain body exits the drain body through the second outlet opening, and flows through the hose to the jet pump unit.
2. The drain assembly of
3. The drain assembly of
4. The drain assembly of
5. The drain assembly of
6. The drain assembly of
7. The drain assembly of
9. The watercraft of
10. The watercraft of
11. The watercraft of
12. The watercraft of
13. The watercraft of
wherein the ball moves to a first position preventing fluid communication from the drain body to the at least one inlet opening when water enters the drain body from at least one of the first and second outlet openings, and
wherein the ball moves to a second position allowing fluid communication from the at least one inlet opening to the drain body when water enters the drain body from the at least one inlet opening.
14. The watercraft of
15. The watercraft of
wherein the two drain assemblies are mounted to the transom on different sides of a longitudinal centerline of the watercraft.
16. The watercraft of
a deck mounted on the hull;
a straddle seat mounted to the deck; and
handlebars disposed forwardly of the straddle seat for steering the watercraft.
18. The watercraft of
19. The watercraft of
20. The watercraft of
wherein the ball moves to a first position preventing fluid communication from the drain body to the at least one inlet opening when water enters the drain body from at least one of the first and second outlet openings, and
wherein the ball moves to a second position allowing fluid communication from the at least one inlet opening to the drain body when water enters the drain body from the at least one inlet opening.
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This application claims priority to U.S. Provisional Patent Application 60/731,242, filed Oct. 31, 2005, entitled “Watercraft Drain”, the entirety of which is incorporated herein by reference.
The present invention relates to a watercraft drain assembly and a watercraft incorporating the watercraft drain assembly.
Watercraft manufacturers attempt to design their watercraft so as to prevent water from entering the hull. Regardless of these attempts, during operation of the watercraft, some water will enter the watercraft either through the air intakes for the engine, the engine compartment ventilation openings, an improper seal between two elements of the watercraft, or some other opening. Water entering the hull, if left unaddressed, may cause some elements normally found inside the hull, such as electronics or the engine, to malfunction, could cause corrosion, and, in extreme cases, may compromise the buoyancy of the watercraft.
To address this problem, watercraft manufacturers typically use two devices. The first one is a drain assembly located on the hull to drain the water out of the watercraft hull when the watercraft is removed from the water, such as when it is placed in dry docks for repair, placed in storage, or placed on a trailer to move it from one body of water to another. The second device is a bailer or a pump used to remove the water from the watercraft hull when the watercraft is on a body of water.
The drain assembly 36 and the bailers 22 described above can both remove water from the hull of a watercraft, however the drain assembly 36 can only be used when the watercraft is outside the water, and the bailers 22 can only be used when the watercraft is operational (in the case where the suction from the jet pump is used) or when the pump attached to the bailers is operational. For this reason, most watercraft are equipped with both a drain and a bailer system. This dual system approach creates a lot of parts which need to be assembled, which ultimately increases the cost of the watercraft.
Therefore, there is a need for a different device for draining water from the hull of a watercraft.
One aspect of the invention provides a watercraft drain assembly which incorporates the function of a bailer.
Another aspect of the invention provides a watercraft equipped with such a drain assembly.
In another aspect, the invention provides a watercraft drain assembly having a tubular drain body. The tubular drain body has a first end and a second end. At least one inlet opening is disposed on the drain body for allowing water to enter the drain body. A first outlet opening is disposed at the first end of the drain body for allowing water to exit the drain body. A drain plug is provided for selectively plugging the first outlet opening. A second outlet opening is disposed on the drain body for allowing water to exit the drain body.
In an additional aspect, the at least one inlet opening is disposed at the second end of the drain body.
In a further aspect, the second outlet opening is disposed at the second end of the drain body.
In an additional aspect, the at least one inlet opening is a plurality of inlet openings forming a strainer.
In a further aspect, the drain assembly has a check valve for preventing water from exiting the drain body through the at least one inlet opening.
In yet a further aspect, the check valve is a ball disposed inside the drain body. The ball moves to a first position preventing fluid communication from the drain body to the at least one inlet opening when water enters the drain body from at least one of the first and second outlet openings, and the ball moves to a second position allowing fluid communication from the at least one inlet opening to the drain body when water enters the drain body from the at least one inlet opening.
In an additional aspect, the drain assembly has a flange located at the first end of the drain body for mounting the drain assembly to a watercraft.
In another aspect, the invention provides a watercraft having a hull. The hull has a transom. A propulsion unit is mounted to the hull. An engine is operatively connected to the propulsion unit for powering the propulsion unit. At least one drain assembly is mounted to the hull for fluidly communicating an interior of the hull with an exterior of the hull. The drain assembly has tubular drain body having a first end passing through the transom and a second end extending in the interior of the hull, at least one inlet opening disposed on the drain body for fluidly communicating the interior of the hull with the drain body, a first outlet opening disposed at the first end for fluidly communicating the drain body with the exterior of the hull, a drain plug for selectively plugging the first outlet opening, and a second outlet opening disposed on the drain body. The watercraft also has a hose fluidly connected to the second outlet opening for fluidly communicating the drain body with the exterior of the hull.
In a further aspect, the propulsion unit is a jet pump and the hose fluidly communicates the drain body with the jet pump such that when the jet pump is powered by the engine, water present in the hull near the at least one drain assembly is aspirated through the at least one inlet opening to the drain body, exits the drain body through the second inlet opening, and flows through the hose to the jet pump unit.
In yet another aspect, the watercraft has a pump in fluid communication with the hose for pumping water present in the hull near the drain assembly through the at least one inlet opening, to the drain body, and through the second inlet opening, through the hose to the exterior of the hull.
In an additional aspect, a check valve is fluidly connected to the hose to prevent flow of water from the hose to the drain body via the second outlet.
In a further aspect, the at least one drain is two drain assemblies, and the two drain assemblies are mounted to the transom on different sides of a longitudinal centerline of the watercraft.
In an additional aspect, the watercraft has a deck mounted on the hull, a straddle seat mounted to the deck, and handlebars disposed forwardly of the straddle seat for steering the watercraft.
Embodiments of the present invention each have at least one of the above-mentioned aspects, but do not necessarily have all of them.
Additional and/or alternative features, aspects, and advantages of the embodiments of the present invention will become apparent from the following description, the accompanying drawings, and the appended claims.
For a better understanding of the present invention, as well as other aspects and further features thereof, reference is made to the following description which is to be used in conjunction with the accompanying drawings, where:
Although the present invention is being described herein with respect to a straddle type personal watercraft propelled by a jet pump, it is contemplated that the invention could also be applied to other types of watercraft, such as boats and stand-up personal watercraft, using the same or other types of propulsion, such as propellers.
Turning now to
A bailer outlet 118 is located at the other end of the drain body 110. The bailer outlet 118 is in the form of a tube having a tapered protrusion at its end to permit a hose, such as hose 132 shown in
The inlet 144 of the drain assembly 100 is located at the same end of the drain body 110 as the bailer outlet 118. The inlet 144 has a tapered portion 128. The angle of taper of the tapered portion 128 is preferably not too acute, as this may cause the ball 133 described below to become stuck in the tapered portion 128. The tapered portion 128 has a plurality of inlet openings 126 forming a strainer. The diameter of each inlet opening 126 is smaller than the diameter of the bailer outlet 118. This prevents large debris from entering the drain body 110 through the inlet openings 126, thus ensuring that the bailer outlet 118 does not get clogged.
A ball 133, preferably made of plastic, is disposed inside the drain body 110. The ball 133 moves inside the drain body 110 and acts as a check valve to prevent water to flow from either one of the drain outlet 124 and the bailer outlet 118 to the interior of the hull 10 via inlet openings 126, as will be explained below.
When the watercraft 8 is operated in water, any water entering the hull 10 moves towards the back of the hull 10 since it is normally the lowest point during operation. As shown in
As shown in
Locating elbow 130 above the waterline 13 helps ensuring that water does not flow from the body of water back to the drain assembly 100 when the jet pump 18 is not operating. Should any water flow back through hoses 134 and 132, the water entering the drain body 110 via the bailer outlet 118 would push the ball 133 towards the tapered portion 128 as shown in
When the watercraft 8 is removed from the water to be placed on a trailer or for repairs, water present in the hull 10 can be drained from the hull 10 by simply removing the plug 114 as shown in
As can be understood by the above description, both drain assembly 100 and drain assembly 200 integrate in a single assembly the functions previously found in two different assemblies (a drain assembly and a bailer assembly), which advantageously reduces the number of parts necessary for effectively draining the hull of a watercraft.
Modifications and improvements to the above-described embodiments of the present invention may become apparent to those skilled in the art. The foregoing description is intended to be exemplary rather than limiting. The scope of the present invention is therefore intended to be limited solely by the scope of the appended claims.
Bourret, Michel, Clement, Sebastien
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Aug 10 2006 | BOURRET, MICHEL | Bombardier Recreational Products Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 018165 | /0055 | |
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